This series of investigative activities for Cadette Girl Scouts begins with an overview of our inner solar system, emphasizes the planetary histories of Mars, Earth and Venus, then concludes with evidence for the greenhouse effect on Earth. The...(View More) activities introduce and reflect the scientific goals of NASA's Mars Atmosphere and Volatile Evolution Mission (MAVEN), which reached Mars on September 21, 2014, and began its study of the Martian atmosphere. Cadettes will simultaneously learn about new technologies and gain new knowledge as they explore career pathways and develop potential service projects linked to the Cadette leadership journey.(View Less)

This is an interactive, real-time display system of space science images and data designed for museums and schools. The program displays hundreds of images and movies from space science research, all documented, with web references of how to find...(View More) out more information. The materials also include a large number of space science educational activities. The software is available for purchase. Full-screen versions without support files are available for download but require a registration number after a 30-day demo period.(View Less)

Carl Sagan once claimed that the most important lesson we learn from studying the stars is perspective. To address this concept, this activity offers a scale model of the solar system to be evaluated. There are many versions of solar system scale...(View More) models available; this one is unique for its large scale chosen, the quality of the scaled objects, and the supplementary materials and information provided. The model is extended to include interaction and discovery on the part of learners, and suggested extensions. The set of materials includes a book about the solar system, developed from NASA's "From Earth to the Solar System" (FETTSS) imagery, and appropriate for use with the model.(View Less)

Students will test various materials to determine if any can shield their "magnetometer" (compass) from an external magnetic field using their own experimental design. If no suitable material is available, they will devise another method to protect...(View More) their instrument. Includes background science for the teacher, worksheets, adaptations and extensions. Next Generation Science Standards (NGSS) are also identified.(View Less)

This web-based curriculum focuses on basic introductory astronomy concepts. The material is presented through interactive exercises, animations, and videos. Adopters can choose any combination of the ten chapters for a particular class. Each chapter...(View More) includes authentic student interaction with actual data where possible. Students master the scientific concepts and reasoning processes that lead to our current understanding of the universe through interactive tasks, prediction and reflection, experimentation, and model building.(View Less)

In this activity, children use common craft materials and ultraviolet (UV)-sensitive beads to construct a person (or dog or imaginary creature). They use sunscreen, foil, paper, and more to test materials that might protect UV Kid from being exposed...(View More) to too much UV radiation. Includes background for facilitators. This activity is part of the "Explore!" series of activities designed to engage children in space and planetary science in libraries and informal learning environments.(View Less)

Students read and analyze two different articles about medical imaging using X-rays. This activity is from the NuSTAR Educators Guide: X-Rays on Earth and from Space, which focuses on the science and engineering design of NASA's NuSTAR mission. The...(View More) guide includes a standards matrix, assessment rubrics, instructor background materials, and student handouts.(View Less)

Students will use the law of reflection to reflect a laser beam off multiple mirrors to hit a sticker in a shoebox. Since X-ray telescopes must use grazing angles to collect X-rays, students will design layouts with the largest possible angles of...(View More) reflection. This activity is from the NuSTAR Educators Guide: X-Rays on Earth and from Space, which focuses on the science and engineering design of NASA's NuSTAR mission. The guide includes a standards matrix, assessment rubrics, instructor background materials, and student handouts.(View Less)

This lesson plan teaches how to select the landing site for a planetary surface investigation, using the 5E learning cycle. Students will be able to determine a landing site for their Mars rover; work with their team to summarize information and...(View More) identify important details in non-fiction writing; research Gale Crater through an online interactive module; use Google Earth Mars to learn about Mars surface features; gather and analyze data to conduct a scientific experiment; collect and record data in a science notebook to draw logical and scientific conclusions; define and identify the role of controls and variables in teams’ scientific or technical questions; and differentiate between weather and climate. The lesson plan has a number of appendices, including standards alignment. This is Lesson 8 of the elementary school version of the 6 week Mars Rover Celebration curriculum.(View Less)

This lesson plan uses the 5E learning cycle and is designed around an essential question: How do I know when I’ve found important information in my reading? Learning objectives include: identify important details in informational texts; learn and...(View More) or review summarizing skills, work collaboratively to locate important information about Mars such as terrain, climate, and atmosphere; understand the rationale and importance of note-taking; develop effective note-taking strategies; and apply note-taking skills to record key information in students’ science notebooks. The lesson plan has a number of appendices, including standards alignment. This is Lesson 4 of the elementary school version of the 6-week Mars Rover Celebration curriculum.(View Less)